A survey of the extensive field of sucrose alternatives, detailing scientific information, technical applications, and regulatory ratings for a wide array of sweeteners. It highlights the change in status of saccharin, the increased use of polyols, and the possibilities provided by the availability of a variety of alternative sweeteners and their uses in combination. This third edition contains new chapters on neotame, tagatose, trehalose, erythritol, and aspartame-acesulfame salt.
A sweet taste is often a critical component in a consumer's sensory evaluation of a food product. This important book summarises key research on what determines consumer perceptions of sweet taste, the range of sweet-tasting compounds and the ways their use in foods can be optimised.The first part of the book reviews factors affecting sweet taste perception. It includes chapters on how taste cells respond to sweet taste compounds, genetic differences in sweet taste perception, the influence of taste-odour and taste-ingredient interactions and ways of measuring consumer perceptions of sweet taste. Part two discusses the main types of sweet-tasting compounds: sucrose, polyols, low-calorie and reduced-calorie sweeteners. The final part of the book looks at ways of improving the use of sweet-tasting compounds, including the range of strategies for developing new natural sweeteners, improving sweetener taste, optimising synergies in sweetener blends and improving the use of bulk sweeteners.With its distinguished editor and international team of contributors, Optimising sweet taste in foods is a standard reference for the food industry in improving low-fat and other foods. - Investigates what determines consumer perceptions of sweet taste - Looks at improving the use of sweet-tasting compounds - Explores strategies for delivering new natural sweeteners
As consumer demand for traditional carbonated drinks falls, the market for beverages with perceived health-promoting properties is growing rapidly. Formulating a nutritional, nutraceutical or functional beverage with satisfactory sensory quality and shelf-life can be challenging. This important collection reviews the key ingredients, formulation technology and health effects of the major types of functional and speciality beverage.Chapters in part one consider essential ingredients such as stabilizers and sweeteners, and significant aspects of formulation such as fortification technology and methods to extend shelf-life. Dairy-based beverages are the focus of Part two, with chapters covering methods to improve the nutritional and sensory quality and technological functionality of milk, a crucial ingredient in many healthful beverages. Chapters on newer dairy ingredients, such as whey and milk-fat globule membrane complete the section. Part three then reviews advances in the significant plant-based beverage sector, with chapters on popular products such as fruit juices, sports drinks, tea and coffee. Soy proteins are also covered. Chapters on product development and the role of beverages in the diet complete the volume.With its distinguished editor and contributors, Functional and speciality beverage technology is an essential collection for professionals and academics interested in this product sector. - Reviews the key ingredients, formulation technology and health effects of the major types of functional and speciality beverages - Essential ingredients such as stabilizers and sweeteners, and significant aspects of formulation such as fortification technology and methods to extend shelf-life are considered - Focuses on methods to improve the nutritional and sensory quality and technological functionality of milk
Industrialization of Indigenous Fermented Foods, Second Edition presents the most recent innovations in the processing of a wide range of indigenous fermented foods ranging from soy sauce to African mageu. It serves as the only comprehensive review of indigenous fermented food manufacture from ancient production methods to industrialized processing technologies for clear understanding of the impact of fermented food products on the nutritional needs of communities around the world. Provides authoritative studies from more than 24 internationally recognized professionals on various processing and control technologies, biochemical and microbiological information, and manufacturing and production procedures form the United States, Indonesia, and Western Europe. About the Author Keith H. Steinkraus is a Professor Emeritus of Microbiology and Food Science at Cornwall University in Geneva and Ithaca, New York, USA. He is the author or editor of numerous professional publications including the Handbook of Indigenous Fermented Foods. He is a Fellow of the International Academy of Food Science and Technology, the Institute of Food Technologists, the American Academy of Microbiology, and the American Association for the Advancement of Science.
Sugar replacement in food and beverage manufacture no longer hasjust an economic benefit. The use of ingredients to improve thenutritional status of a food product is now one of the majordriving forces in new product development. It is thereforeimportant, as options for sugar replacement continue to increase,that expert knowledge and information in this area is readilyavailable. Sweeteners and Sugar Alternatives in Food Technologyprovides the information required for sweetening and functionalsolutions, enabling manufacturers to produce processed foods thatnot only taste and perform as well as sugar-based products, butalso offer consumer benefits such as calorie reduction, dentalhealth benefits, digestive health benefits and improvements in longterm disease risk through strategies such as dietary glycaemiccontrol. Part I of this comprehensive book addresses these healthand nutritional considerations. Part II covers non-nutritive,high-intensity sweeteners, providing insights into blendingopportunities for qualitative and quantitative sweetnessimprovement as well as exhaustive application opportunities. PartIII deals with reduced calorie bulk sweeteners, which offer bulkwith fewer calories than sugar, and includes both the commerciallysuccessful polyols as well as tagatose, an emerging functional bulksweetener. Part IV looks at the less well-established sweetenersthat do not conform in all respects to what may be considered to bestandard sweetening properties. Finally, Part V examines bulkingagents and multifunctional ingredients. Summary tables at the endof each section provide valuable, concentrated data on each of thesweeteners covered. The book is directed at food scientists andtechnologists as well as ingredients suppliers.
"Offers up-to-the-minute coverage of the chemical properties of major and minor food constituents, dairy products, and food tissues of plant and animal origin in a logically organized, step-by-step presentation ranging from simple to more complex systems. Third Edition furnishes completely new chapters on proteins, dispersions, enzymes, vitamins, minerals, animal tissue, toxicants, and pigments."
This book provides a comprehensive and accessible source of information on all types of sweeteners and functional ingredients, enabling manufacturers to produce low sugar versions of all types of foods that not only taste and perform as well as sugar-based products, but also offer consumer benefits such as calorie reduction, dental health benefits, digestive health benefits and improvements in long term disease risk through strategies such as dietary glycaemic control. Now in a revised and updated new edition which contains seven new chapters, part I of this volume addresses relevant digestive and dental health issues as well as nutritional considerations. Part II covers non-nutritive, high-potency sweeteners and, in addition to established sweeteners, includes information to meet the growing interest in naturally occurring sweeteners. Part III deals with the bulk sweeteners which have now been used in foods for over 20 years and are well established both in food products and in the minds of consumers. In addition to the "traditional" polyol bulk sweeteners, newer products such as isomaltulose are discussed. These are seen to offer many of the advantages of polyols (for example regarding dental heath and low glycaemic response) without the laxative side effects if consumed in large quantity. Part IV provides information on the sweeteners which do not fit into the above groups but which nevertheless may offer interesting sweetening opportunities to the product developer. Finally, Part V examines bulking agents and multifunctional ingredients which can be beneficially used in combination with all types of sweeteners and sugars.
While lactic acid producing fermentation has been utilized to improve the storability, palatability, and nutritive value of perishable foods for a very long time, only recently have we begun to understand just why it works. The first edition of this international bestseller both predicted and encouraged vigorous study of various strains of lactic a
Handbook of Dough Fermentations describes the preparation of ferments and utilization of starters in the commercial baking and food industries and offers in-depth discussion on the modification of sourdough processes in the production of common bakery products, as well as the microbiological principles, fermentation pathways, product formulations, and technological methodologies relating to these procedures. This unique reference examines statistical market trends for fermented cereal, yeast, and natural and sourdough products. It pinpoints areas of potential for products and foods using fermentation science and analyzes the application of starters in the production of specific products.
